Follow
Thomas Applencourt
Thomas Applencourt
Leadership Computing Facility, Argonne National Laboratory
Verified email at anl.gov
Title
Cited by
Cited by
Year
Recent developments in the ABINIT software package
X Gonze, F Jollet, FA Araujo, D Adams, B Amadon, T Applencourt, ...
Computer Physics Communications 205, 106-131, 2016
6402016
ABINIT: Overview and focus on selected capabilities
AH Romero, DC Allan, B Amadon, G Antonius, T Applencourt, L Baguet, ...
The Journal of chemical physics 152 (12), 124102, 2020
912020
Quantum package 2.0: An open-source determinant-driven suite of programs
Y Garniron, T Applencourt, K Gasperich, A Benali, A Ferté, J Paquier, ...
Journal of chemical theory and computation 15 (6), 3591-3609, 2019
882019
Screened Coulomb interaction calculations: cRPA implementation and applications to dynamical screening and self-consistency in uranium dioxide and cerium
B Amadon, T Applencourt, F Bruneval
Physical Review B 89 (12), 125110, 2014
612014
Communication: Toward an improved control of the fixed-node error in quantum Monte Carlo: The case of the water molecule
M Caffarel, T Applencourt, E Giner, A Scemama
The Journal of Chemical Physics 144 (15), 151103, 2016
592016
Accurate nonrelativistic ground-state energies of 3d transition metal atoms
A Scemama, T Applencourt, E Giner, M Caffarel
The Journal of Chemical Physics 141 (24), 244110, 2014
462014
Quantum Monte Carlo with very large multideterminant wavefunctions
A Scemama, T Applencourt, E Giner, M Caffarel
Journal of Computational Chemistry 37 (20), 1866-1875, 2016
382016
Using CIPSI nodes in diffusion Monte Carlo
M Caffarel, T Applencourt, E Giner, A Scemama
Recent Progress in Quantum Monte Carlo, 15-46, 2016
272016
Recent Progress in Quantum Monte Carlo
M Caffarel, T Applencourt, E Giner, A Scemama
ACS Symp. Ser 1234, 15-46, 2016
192016
Toward a systematic improvement of the fixed-node approximation in diffusion Monte Carlo for solids—A case study in diamond
A Benali, K Gasperich, KD Jordan, T Applencourt, Y Luo, MC Bennett, ...
The Journal of Chemical Physics 153 (18), 184111, 2020
152020
Quantum package v1. 0
A Scemama, T Applencourt, Y Garniron, E Giner, G David, M Caffarel
Zenodo. http://dx. doi. org/10.5281/zenodo 200970, 2016
142016
Spin adaptation with determinant-based selected configuration interaction
T Applencourt, K Gasperich, A Scemama
arXiv preprint arXiv:1812.06902, 2018
92018
Performance portability evaluation of opencl benchmarks across intel and nvidia platforms
C Bertoni, JH Kwack, T Applencourt, Y Ghadar, B Homerding, C Knight, ...
2020 IEEE International Parallel and Distributed Processing Symposium …, 2020
72020
Quantum package v1. 0, 2016
A Scemama, T Applencourt, Y Garniron, E Giner, G David, M Caffarel
Google Scholar There is no corresponding record for this reference, 0
7
QMC using very large configuration interaction-type expansions
A Scemama, E Giner, T Applencourt, M Caffarel
Pacifichem, Advances in Quantum Monte Carlo, 2015
42015
Position paper: Extending codelet model for dataflow software pipelining using software-hardware co-design
S Raskar, T Applencourt, K Kumaran, G Gao
2019 IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC …, 2019
32019
Erratum: Screened Coulomb interaction calculations: cRPA implementation and applications to dynamical screening and self-consistency in uranium dioxide and cerium [Phys. Rev. B …
B Amadon, T Applencourt, F Bruneval
Physical Review B 96 (19), 199907, 2017
32017
SU3_Bench, a micro-benchmark for exploring exascale era programming models, compilers and runtimes
D Doerfler, C Daley, T Applencourt
22020
Roofline-based performance efficiency of hpc benchmarks and applications on current generation of processor architectures
J Kwack, T Applencourt, C Bertoni, Y Ghadar, H Zheng, C Knight, ...
2019 Cray User Group Meeting 5, 2019
22019
Spin-adapted selected configuration interaction in a determinant basis
VG Chilkuri, T Applencourt, K Gasperich, PF Loos, A Scemama
Advances in Quantum Chemistry 83, 65-81, 2021
12021
The system can't perform the operation now. Try again later.
Articles 1–20